Wireless power receiver for increased charging efficiency

1. A wireless power receiver configured to receive charging power from a wireless power transmitter, the wireless power receiver comprising: a power reception unit configured to receive the charging power from the wireless power transmitter; a rectification unit configured to rectify charging power provided by the power reception unit, and output charging power in a form of Direct Current (DC); a charging unit configured to store charging power; and a power processing Integrated Chip (IC) that is connected to both the rectification unit and the charging unit, and is configured to convert a voltage of the rectified charging power, that the rectification unit has output, into at least one voltage, that an operation of the wireless power receiver requires, and output power having the at least one voltage.

2. The wireless power receiver as claimed in claim 1 , wherein the power processing IC is configured to convert a voltage of the rectified charging power into multiple different voltages, and output power having each of the multiple different voltages along each of different paths.

3. The wireless power receiver as claimed in claim 1 , wherein the power processing IC has a limited voltage value of 30 V, and operates at a voltage which is less than 27 V.

4. The wireless power receiver as claimed in claim 1 , further comprising: an over-current protection unit configured to change an impedance of the wireless power receiver in order to prevent a voltage value of the charging power from being greater than or equal to a threshold; and a control unit configured to determine whether a magnitude of the charging power is greater than or equal to the threshold, and perform a control operation for connecting the over-current protection unit to the power reception unit when the magnitude of the charging power is greater than or equal to the threshold.

5. The wireless power receiver as claimed in claim 4 , wherein the over-current protection unit comprises at least one of a capacitor and a coil.

6. The wireless power receiver as claimed in claim 1 , further comprising a control unit configured to monitor a voltage applied to the power processing IC and generates a report signal including a result of monitoring the voltage.

7. The wireless power receiver as claimed in claim 6 , further comprising a communication unit configured to communicate with the wireless power transmitter by using a preset communication scheme, wherein the control unit controls the communication unit to transmit the generated report signal to the wireless power transmitter.

8. The wireless power receiver as claimed in claim 7 , further comprising: a first over-voltage prevention unit that is connected to the power reception unit and is configured to prevent an over-voltage from being applied to the power reception unit; and a second over-voltage prevention unit that is connected to the rectification unit and is configured to prevent an over-voltage from being applied to the power reception unit.

9. The wireless power receiver as claimed in claim 8 , wherein the control unit performs a control operation that prevents an over-voltage from being applied to the power reception unit, in such a manner as to perform a control operation for connecting the first over-voltage prevention unit to the power reception unit when a voltage applied to the power reception unit is greater than a preset first threshold, and performs a control operation that prevents an over-voltage from being applied to the rectification unit, in such a manner as to perform a control operation for connecting the second over-voltage prevention unit to the power reception unit when a voltage applied to the rectification unit is greater than a preset second threshold.

10. The wireless power receiver as claimed in claim 1 , further comprising a wired power reception unit configured to receive charging power by wire.

11. The wireless power receiver as claimed in claim 10 , further comprising a selection circuit configured to select charging power to be first processed from among charging power received by the wired power reception unit and charging power received by the wireless power reception unit, when charging power is simultaneously received by the wired power reception unit and by the wireless power reception unit.

12. The wireless power receiver as claimed in claim 11 , wherein the selection circuit enables the charging power received by the wired power reception unit to be first processed, when charging power is simultaneously received by the wired power reception unit and by the wireless power reception unit.

13. A power processing Integrated Chip (IC) connected to a wireless power receiver configured to receive charging power from a wireless power transmitter, the power processing IC comprising: a wireless power input terminal configured to receive, as an input, wirelessly-received charging power; a wired power input terminal configured to receive, as an input, charging power received by wire; a wireless power processing circuit configured to convert a voltage of the charging power, that the wireless power input terminal provides, into at least one voltage, that an operation of the wireless power receiver requires, and output power having the at least one converted voltage; and a wired power processing circuit configured to convert a voltage of the charging power, that the wired power input terminal provides, into at least one voltage, that an operation of the wireless power receiver requires, and output power having the at least one converted voltage.

14. The power processing IC as claimed in claim 13 , further comprising a selection circuit configured to select charging power to be first processed from among charging power received by the wired power input terminal and charging power received by the wireless power input terminal when charging power is simultaneously received by the wired power input terminal and by the wireless power input terminal.

15. The power processing IC as claimed in claim 13 , further comprising an over-voltage protection circuit configured to monitor a voltage of a particular part of the power processing IC, and cut off or drop a voltage applied to the power processing IC when the voltage of the particular part exceeds a threshold.